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Simulation of extrusion processes of aluminum profiles with modeling of microstructure

: Sun, D.-Z.; Ockewitz, A.; Trondl, A.

Volltext (PDF; )

Wells, M. ; Canadian Institute of Mining, Metallurgy and Petroleum:
16th International Aluminum Alloys Conference, ICAA 2018. Proceedings : Montreal, Canada, June 2018
Montreal: CIM, 2018
ISBN: 978-1-926872-41-4
Paper 400976, 12 S.
International Aluminum Alloys Conference (ICAA) <16, 2018, Montreal>
Bundesministerium fur Wirtschaft und Energie BMWi (Deutschland)
IGF; 18276 N
Konferenzbeitrag, Elektronische Publikation
Fraunhofer IWM ()
aluminum profile; extrusion simulation; friction test; modeling of microstructure; torsion test

Numerical simulation of extrusion processes offers an efficient method for tool design and optimization of geometries and properties of extruded parts. However, until now there are few systematic investigations about influences of material model and different parameters e.g. for friction and thermal processes on calculated local and global responses. Since extrusion processes are essentially influenced by friction between billet and extrusion tools, new friction tests were performed in this work to develop a reliable friction model. Compression and torsion tests were performed at different temperatures and velocities to calibrate the material model for extrusion simulations. Extrusion processes for circular rods and U-profiles were conducted at TU Berlin with backward and forward extrusion for different extrusion ratios, billet temperatures, product velocities and cooling conditions. This work focuses on numerical simulations of the extrusion tests with the FE code HyperXtrude. Based on the calculated distributions of local strain, strain rate and temperature the recrystallized volume fraction and grain sizes were calculated with empirical models and compared with the experimental results from optical micrographs and EBSD scans. The calculated total and friction forces and temperatures were compared with the experimental results and the deviations between experiment and simulation were analyzed.